Container aperture adaptors

ABSTRACT

A conical frustrum bucket type outer member with an outward flanged end opposite the smaller end of the frustrum or the bottom of the member formed of non rigid expandable retractable material neoprene or the like, with an outward annular sealing ring at the bottom and two recessed receiving groove rings within the inner wall of the conical frustrum section. The bottom end of said frustrum section to be curved upward within the frustrum to provide excess material for the subsequent expansion when a second member of the assembly unit is inserted within said member. The bottom of said outer member being a closed end if the assembly unit is used as an aperture closure or to have an opening if the assembly unit is used as a flow through aperture adaptor.

United States Patent [191 Walters Dec. 2, 1975 CONTAINER APERTURE ADAPTORS Tom Walters, 2l02 Mason Blvd., Point Pleasant, W. Va. 25550 [76] Inventor:

[52] U.S. Cl. 220/235; 220/257; 220/288; 220/303 [51] Int. Cl. B65D 53/00; B65D 41/32 [58] Field of Search 220/214, 288, 235, 256, 220/257, 303, 304; 285/200, 201

[56] References Cited UNITED STATES PATENTS 3,099,364 7/1963 Todd 220/235 3,l22,26l 2/1964 Parish, Jr. at al 220/257 Primary Examiner-George T. Hall [57] ABSTRACT A conical frustrum bucket type outer member with an outward flanged end opposite the smaller end of the frustrum or the bottom of the member formed of non rigid expandable retractable material neoprene or the like, with an outward annular sealing ring at the bottom and two recessed receiving groove rings within the inner wall of the conical frustrum section. The bottom end of said frustrum section to be curved upward within the frustrum to provide excess material for the subsequent expansion when a second member of the assembly unit is inserted within said member. The bottom of said outer member being a closed end if the assembly unit is used as an aperture closure or to have an opening if the assembly unit is used as a flow through aperture adaptor.

16 Claims, 23 Drawing Figures US Patent Dec. 2,19% Sheet 1 of7 3,923,192

Fig.1

US. Patent Dec. 2, 1975' Sheet2of7 3,923,192

U.S. Patent Dec.2, 1975 Sheet3of7 3,923,192

f lm.

US. Patent Dec. 2, 1975 Sheet 4 of7 3,923,192

m w mm m U.S. Patent Dec.2,1975 SW50 3,923,192

Fig.14

Sheet 6 of 7 U.S. Pate n t Dec.2, 1975 US. Patent Dec. 2, 1975 Shet 7 of7 3,923,192

CONTAINER APERTURE ADAPTORS The second or inner member of theassembly unit of firm material, a cylindrical bucket type design closed the bottom end except for air passage holes if used with the aperture closure assembly unit or the bottom to have an opening if used with the aperture flow through assembly unit, has an outward flange the opposite end and the cylindrical wall has outward segments, or an alternate inner member with left hand raised threads, along with outward annular rings that are spaced to be received within the ring grooves within the conical frustrum of said outer member when the inner member is inserted partially and/or fully into the outer member. The inner shape of the inner member is a hexagonal or the like socket for the subsequent assembly unit removal by wrench. Either inner member mentioned is adaptable to threaded apertures. The alternate inner member mentioned is to be used for unthreaded apertures.

As an aperture closure adaptor a third part of the assembly unit is a plastic shipping seal cap cemented to the flange of the inner member. These two parts are temporarily affixed to the outer member with the lower annular ring of the inner member being received within the top ring groove of the outer member.

The unit is to be placed into a containers aperture and firmly pressed onto the aperture boss until the assembly unit members flanges are pressed together and the outer member flange is firmed against the aperture boss facing. Air escape holes or channels are provided within the inner member and the shipping cap lip for venting would be trapped air when the assembly unit is telescopingly compressed.

This firm insertion of the telescoping members as a unit or part thereof into a containers aperture expands the outer member into the threads and or periphery forcing the bottom outward annular ring of the outer member against the inside of the aperture boss tightening the outer member flange against the opposite face of the boss effecting a three way riveted seal.

For the removal of the aperture closure assembly unit from a containers threaded aperture the shipping cap is cut on lines indicating a receptacle for a socket type wrench by which the assembly unit can be screwed out of the threaded boss by counter clockwise rotation. It

is here that the inner member's outward segments or the alternate inner members left hand threads, are embedded and hold firm within the outer member effecting a seizure thereto for the removal of the closure assembly unit from the threaded aperture boss.

For unthreaded containers apertures the alternate inner member with left hand threads is used and for this type assembly units removal from said aperture the shipping cap is cut on lines indicating a receptacle for a socket type wrench by which the alternate inner member is screwed out of the outer member permitting the outer member to retract and become loosened and withdrawn.

The operation procedures for the aperture flow through adaptors are similar to the above except that connecting means for piping, spouts and'the like are provided in lieu of said shipping seal cap.

This invention relates in general to straight thrust riveting seal aperture closures and flow through adaptors for cylindrical threaded and unthreaded apertures and more particularly to bung adaptors for fifty five gallon drums or the like and being removable by making use of the standard threaded bosses present on drums or the like as well as being removable from within unthreaded apertures by the use of the alternate left hand threaded inner member of the unit when applicable.

Present drum bunging operations can not depend upon the pipe threads of the boss and cap to prevent leakage. For example there is only 5/16 inch maximum threads available for the engagement for a 2 inch pipe connection. A thin gasket is used and must be tightened against the boss by inserting a threaded pipe plug type cap by hand or torque wrench. This effects one compression seal and not a very good one due to the probability of the gasket distortion upon the tightening rotation to effect the seal, over tightening causing gasket breakage and or thread stripping'or distortions. Expansion/contraction of the drum or the like due to weather and or product temperature variations has caused this type closure to loosen permitting the gasket to leak. Some cases where a vacuum becomes present within the drum, foreign liquids, chemical spillages, water, etc., that became present on the top of standing drums were pulled into the drum contaminating the product and or caused product reaction. Present bunging/capping operations involves handwork, inspecting for gasket presence/placement, inserting a pipe thread cap into the bung boss, tighening as required, then capping the closure with a shipping cap seal 'using a special clincher type capping device which due to the standard design of the boss and cap can only be a: friction fit'and easily removed and replaced.

It is therefore an important object of the present invention to provide a bung closure of simple design and application to effect a three way riveted seal than can be applied to a containers aperture or bung opening in one simple straight thrust operation that can also include affixing the shipping cap seal thereto. Further to provide a bung closure that can be removed only by leaving tattle tale evidence of tampering with the shippping cap seal and or destroying the closure. Further to provide a bung closure that can be applied by a simple straight thrust means either by hand or an automated apparatus. Further to provide a bung closure as mentioned that can be removed in the conventional manner by a socket wrench from a containers threaded aperture. Further to provide a bung closure as mentioned for unthreaded apertures that can be removed in a similar manner. Further to provide closures and adaptors as mentioned and explained that after initial usage and removal from containers or the like that can be reassembled and reused as desired or required and further to provide an aperture adaptor for threaded or unthreaded apertures to effect a suitable flow through connection for attaching spouts, funnels, valving, related piping and other devices thereto. And for the said adaptor to effect a three way riveted seal, also with an inherent design means .for its removal and reuse.

These together with other objects and advantages which will become subsequently apparent reside in the details of construction and operation as more 'fully hereinafter described and claimed, reference being had to the accompanying drawings forming a part hereof, wherein-like numerals refer to lilke parts throughout.

FIGLl is perspective views showing the disassembled members, 32, 34 and 36 of aperture closure assembly 200 of the present invention.

FIG. 2 is a side sectional/side view through/at the disassembled members shown in FIG. 1.

FIG. 3 is perspective views showing the disassembled members, 32, 28 and 36 of aperture closure assembly 210 of the present invention.

FIG. 4 is a side sectional/side view through/at the disassembled members shown in FIG. 3.

FIG. 5 is a sectional/perspective view showing the members 32, 34 and 36 of assembly 200 in their initial assembly placed into a container aperture prior to the thrust riveting operation.

FIG. 6 is a side sectional/side view through/at the initial assembled members in FIG. 5.

FIG. 7 is a sectional/perspective view showing the members 32, 28 and 36 of assembly 210 in their initial assembly placed into a container aperture prior to the thrust riveting operation.

FIG 8 isa side sectional/side view through/at the initial assembled members 'in FIG. 7.

FIG. 9 is a sectional/perspective view showing members.32, 34 and 36 of assembly 200 after the thrust riveting. operation firmly inserted, seated and riveted sealed into and about a containers aperture boss.

FIG. 10 is a sectional/perspective view showing members 32, 28 and 36 of assembly 210 after the thrust riveting operation firmly inserted, seated and riveted sealed into and about a containers aperture boss.

FIG. 1 l is a sectional/perspective view showing members 32, 34 and 36 of assembly 200 after the thrust riveting operation being removed from a containers threaded aperture boss.

FIG. 12 is a sectional/perspective view showing members 32, 28 and 36 of assembly 210 after the thrust riveting operation being removed from a containers threaded aperture boss.

FIG. 13 is a sectional/perspective view showing members 34 and 36 of assembly 200, member 32 being removed, after usage and removal from a containers threaded aperture boss with notation for reuse. I

FIG. 14 is a sectional/perspective view showing the members in FIG. 13 reassembled for reuse.

FIG. 15 is a sectional/perspective view showing members 28 and 36 ofassembly 210, member 32 being removed, after usage and removal from a containers threaded aperture boss.

FIG. 16 is a sectional/perspective view showing the members in FIG. 15 reassembled for reuse along with notation pertaining thereto.

- FIG. 17 is a sectional/perspective view showing member 30 for flow through adaptors, a variation of member 36.

FIG. 18 is a sectional/perspective view showing member 26 for flow through adaptors, a variation of member 28.

FIG. 19 is a sectional/perspective view showing member 24 for flow through adaptors, a variation of member 28 with member 122 added.

FIG. 20 is a side sectional/side view showing members 24 and 122 assembled.

FIG. 21 is a sectional/perspective view showing members 26 and 30 of assembly 220 in the riveted sealed position within and about a containers unthreaded aperture boss.

FIG. 22 is a sectional/perspective view showing members 122, 24 and 30 of assembly 230 in the riveted sealed position within and about a containers unthreaded aperture boss.

FIG. 23 is a sectional/perspective view showing a typical adaptor removal of assembly 220 from a containers unthreaded aperture boss.

Referring now to the drawings in detail, FIGS. 1, 2, 5, 6, 9, ll, 13 and 14 show a typical aperture closure assembly 200 or members thereof. FIGS. 3, 4, 7, 8, 10, l2, l5 and 16 show a typical closure assembly 210 or members thereof. FIGS. 17, l8, 19, 20, 21, 22 and 23 show typical variations of the closure principle adaptable to adaptor assemblies 220 and 230 for flow through aperture adaptors. These being constructed in accordance with the present invention.

As a member of assemblies 200 and 210 shown in FIGS. 1, 2, 3 and 4, and of plastic material, a cap 32 has a cylindrical side flange 50 with an inward projecting annular bead 42 to subsequently snap-on catch about flange rim 86 of member 36. Bead 42 has air passage channels 44 for air release when member 34 or 28 is inserted into member 36. Cap member 32 being then affixed to member 34 or 28. Outward tabs 38 with holes 40 are part of side 50 for the attachements of product identification tags or the like. Hexagonal imprint, or the like, 46 on the face of the cap used as a cut line for the unit removal is directly over a hexagonal or the like bead 92 on cap 32 inner surface 48 which aligns the cap onto flange 52 of member 34 or 28 by fitting into the hexagonal or the like socket 66 of member 34 or 28.

Another member of assembly 200 shown in FIG. 1 and 2, and of firm hard material an inner member of cylindrical bucket type design, 34 which has a hexagonal or the like socket 66 for subsequent wrench removal of the closure unit, air escape holes 64 in the wall of socket 66, air escape holes 62 in bottom 88, outward flange 94 at the top, outward segments 56 on cylindrical wall 58 for the subsequent unit removal from an aperture, outward annular rings 104 and 60 positioned upon wall 58 to aid in the initial assembly and final riveted assembly being received in grooves 76 and 78 of member 36.

The outer member of assembly 200 and 210 shown in FIGS. 1, 2, 3 and 4 and of firm but expandable retractable material, neoprene rubber or the like, member 36 has a conical frustrum type bucket design which has securing and or locking grooves 76 and 78 in the inner conical wall 74 to receive the annular rings 104 and 60 respectively of member 34 or 28, concave bottom 80 to aid in the subsequent expansion of member 36 annular ring 82 and conical wall 72, outward flange 68 with groove rim 86 to receive bead segments 42 of member 32 and face of flange 68 as one of the sealing surfaces of the unit to seal against the outer face of the containers aperture boss.

As a member of assembly 210 shown in FIG. 3 and 4, member 28 being similar to member 34 of assembly 200 except that left hand raised threads 98 are used in lieu of segments 56 giving assembly 210 the versatility of being removable from unthreaded apertures as well as threaded apertures. Also the left hand threads 98 aid in disassembling the unit as shown in FIG. 16. FIG. 3 and 4 have views of member 28 an inner member of firm hard material with a cylindrical bucket type design which has a hexagonal or the like socket 66 for subsequent wrench removal of the closure unit, air escape holes 64 in the wall of socket 66, air escape holes 62 in bottom 88, outward flange 94 at the top, left hand raised threads 98 on cylindrical wall 96 for the subsequent unit removal from an aperture and or disassembling the unit, outward annular rings 104 and 60 positioned upon wall 96 to aid in the initial assembly and final riveted assembly being received in grooves 76 and 78 of member 36.

FIGS. 5 and 6 are views of assembly 200 with member 32 with face 48 pressed against and cemented to face 52 of member 34, with hexagonal bead 92 of member 32 aligned by hexagonal socket 66 of member 34, and annular bead 60 of 34 received in groove 76 of wall 74 of member 36, this being the initial member positioning of assembly 200 shown placed onto a containers threaded aperture boss 250.

FIGS. 7 and 8 are views of assembly 210 with member 32 with face 48 pressed against and cemented to face 52 of member 28, with hexagonal head 92 of member 32 aligned by hexagonal socket 66 of member 28 and annular bead 60 of 28 received in groove 76 of wall 74 of member 36, this being the initial member positioning for assembly 210 shown placed onto a containers threaded aperture boss 250.

FIG. 9 is a view of assembly 200 in its secured and sealed position after the downward thrust upon member 32 exposed surface telescoping the unit closed to effect a three way riveted seal about the threads and adjacent faces of the containers aperture threaded boss 250. Where flange 54 of member 34 is firmed against flange 68 of member 36, annular rings 104 and 60 of member 34 are received and secured in grooves 76 and 78 respectively of member 36, where face 88 of member 34 flattens and firms against the face 84 of bottom 80 of member 36, where wall 58 of member 34 when thrust into the conical section 74 of member 36 expands said section to cause the outer wall 72 of member 36 to press into the aperture boss 250 threads effecting one seal, and to expand the annular ring 82 of member 36 to firm around the inner face of said boss effecting another seal, and also creating a riveting tightening action causing face 70 of flange 68 of member 36 to further tighten against the outer face of the aperture boss 250 effecting another seal. It is thus that a three way seal is accomplished by a downward thrust motion upon the pre-assembled unit at application to a containers aperture threaded boss.

In FIG. 10 assembly 210 is shown in its secured, sealed and riveted position within and about a containers aperture threaded boss 250 as described for assembly 200, except member 28 is used in lieu of member 34.

In FIG. 11 assembly 200 is shown prepared for and being removed as a sealed unit from a containers threaded aperture boss 250 by cutting member 32 on the imprinted figuration 46, removing portion of same and inserting a socket wrench for the purpose and turning counter clockwise for the unit removal.

FIG. 12 is a view showing assembly 210 prepared for being removed as a sealed unit from a containers threaded aperture boss 250 the same as shown and stated for assembly 200 in FIG. 11.

FIG. 13 is a view showing assembly 200 prepared for disassembly and subsequent reuse. Member 32 being removed to expose flange 94 of member 34 and flange 68 of member 36 so a spreader tool can be inserted between the flanges to aid in pulling the members apart and reposition said members as shown in FIG. 14 for reuse. A new member 32 may be affixed if required.

FIG. 15 is a view showing assembly 210 prepared for disassembly and subsequent reuse. Member 32 being removed to expose flange 94 of member 28 and flange 68 of member 36 to permit a firm grip about member 36 while turning said socket wrench in clockwise rotation to effect the disassembly by unscrewing on the left hand thread 98 of member 28 as indicated in FIG. 16 which also indicates the repositioning of said members for reuse. A new member 32 may be affixed if required.

FIG. 17 is a view showing member 30 which is identical to member 36 except opening for product flow through has been added for use of the member in assemblies 220 and 230. Groove rim 86 can be omitted.

FIG. 18 is a view showing member 26 which is identical to member 28 except opening 106 with tapped threads 102 and hexagonal nut shoulder 100 have been added, air escape holes 64 have been omitted for use of the member in assemblies 220 and 230.

FIG. 19 and 20 are views showing members 24 and 122, member 122 being an adjustment nut while member 24 is identical to member 28 except cylindrical tubular section 116 with threads 118 and 120, passage opening 112 with hexagonal opening 108 have been added and member 122 replaces flange 94 of said member 28, air escape holes 64 have been omitted for use of the member in assembly 230.

FIG. 21 is a view showing adaptor members 30 and 26 as a flow through assembly 220 in its riveted sealed position within and about a containers non-threaded aperture boss 240 accomplished in a manner explained previously.

FIG. 22 is a view showing adaptor members 30, 24 and 122 as a flow through assembly 230 in its riveted sealed position within and about a containers nonthreaded aperture boss 240 accomplished in a manner explained previously except that member 122 has been added as an adjustment nut to travel on threads to firm face 124 against flange face 68 of member 30 causing flange face 70 and annular ring 82 of member 30 to further compress about the containers aperture boss 240 enhancing the riveted seal where aperture boss variances in thickness are present.

FIG. 23 is a view showing a typical removal procedure for removing assembly 220 and like assemblies from a non-threaded aperture boss 240 where member 26 (or 24) is rotated clockwise with means provided while securing member 30 as indicated. Assembly 220, 230 and 210 can also be removed in a similar manner from threaded or ribbed aperture bosses.

Flow through aperture/adaptors 220 and 230 even though in a riveted sealed position within and about aperture bosses and while intended for piping, valving, spouting, funneling and device attachments will also absorb reasonable vibrations from outside sources thus giving protection to the connection against cyclic fatigue.

The foregoing is considered as illustrative only of the principles of the invention. Further, since numerous modifications and changes will readily occur to those skilled in the art, it is not desired to limit the invention to the exact construction and operation shown and described, and accordingly all suitable modifications and equivalents may be resorted to, falling within the scope of the invention.

What is claimed as new is as follows:

I. In combination with a pair of telescoping bucket type members telescopable one within the other on a common axis, the outer member of expandable retractable material with its outer configuration providing means to aid in the subsequent closing telescoping clamping, expanding and positioning/locking action with and for the inner telescoping member while its outer configuration provides means to aid in the subsequent clamping riveting seal feature within the aperture and about its boss, the inner member of firm material having an outer configuration providing positioningllocking, seizing and clamping means within said outer member at the subsequent closing telescoping riveting seal action while its inner configuration includes means for the subsequent unit removal as well as air passage holes functional in conjunction with a plastic type cover cap third member which is pre-affixed onto the clamping flange of said member, which has peripheral air passage channels that in conjunction with the inner members air passage holes for the subsequent release of air from between the inner and outer members at the subsequent telescoping closure action and positioning means for affixing onto the clamping flange of said inner member and a snap-on means for the subsequent securing to the outer members clamping flange, whereupon the .telescoping closure action the inner member is seated in a selected locked position within the outer member expanding and clamping said member to effect a riveted seal within an aperture and upon the opposing facesof the boss containing the aperture of a container or the like thus the closure assembly is a complete and independent closure unit for the various types of apertures.

2. The combination of claim 1 wherein said outer member includes a conical frustrum section that upon receiving the inner member expands from a conical frustrum section to a cylindrical section outwardly to seal against a containers or the like connections aperture wall and or threads.

3. The combination of claim 1 wherein said expandable retractable outer member includes at its closed end and outward annular ring functional in conjunction with an opposite outward clamping flange that upon the telescoping closure action the annular ring is forcibly stretched and rolled within and sealed against the aperture bosss inner facing while the clamping flange is forcibly sealed against the aperture bosss outer face to effect a riveted stretched confinement.

4. The combination of claim 1 wherein said expandable retractable outer member includes atits closed end a concave section that upon the riveting closure action the concave surface is flattened by the forcible insertion of the inner member providing material for and aiding in the rolling riveting seal action of said annular ring.

5. The combination of claim 2 wherein said outer members conical frustrum section includes internal retaining and positioning/locking annular grooves to receive and secure the inner members annular positioning/locking rings when the closure unit is telescopingly seated in the riveted sealed position.

6. The combination of claim 1 wherein said inner member includes outward annular positioning/locking rings on its cylindrical section for securing said inner member into said retaining and positioning/locking annular grooves within the outer member in the initial aligned position and the subsequent seated riveted sealed position.

7. The combination of claim 1 wherein said inner member includes between said annular rings a series of segments on its cylindrical section for securing said inner member to said outer member upon the subsequent telescoping riveting seal action the said segments forcibly embedding into the outer member wall to render the said member non-rotatable one within the other and or so when the inner member is rotated itis affixed to the outer member causing said outer member to rotate likewise.

8. The combination of claim 6 wherein an alternate inner member includes between said annular rings a series of outward projecting or raised left hand threads on its cylindrical section for securing said inner member to said outer member upon the subsequent telescoping riveting seal action when said threads are forcibly embedded into the outer member wall to render said outer member non-rotatable counter clockwise one about the other and or so when the inner member is rotated counter clockwise it is affixed to the outer member causing said outer member to rotate likewise.

9. The combination of claim 8 wherein said inner member has outward projecting left hand threads on its cylindrical section for securing said inner member to said outer member upon the subsequent telescoping riveting seal action within and about a threaded or unthreaded aperture, the inner member can be removed from the assembly by the clockwise rotation of said member thus freeing the assembly from the aperture.

10. The combination of claim 1 wherein said inner members include a hexagonal or the like socket within the cylindrical section for the subsequent socket wrench removal of the assembly unit from the containers or the like aperture.

11. The combination of claim 1 wherein applicable members, the inner member with cap member of closure affixed as a unit are provided with air escape passages for the release of would be trapped air at the subsequent telescoping riveting seal action when said inner member is seated within outer member.

12. The combination of claim 1 wherein said cap member includes a means indicating size, shape and position of the hexagonal or other type socket wrench necessary for the removal of the aperture closure assembly from a containers aperture and upon the removal said cap will have tattle tale signs of the removal or tampering.

13. The combination of claim 1 wherein the closing telescoping clamping, expanding, positioning/locking, riveting seal means provide a closure and or an adaptor unit for the various container or the like aperture boss configurations and does not require a special aperture boss design to be functional.

14. In combination of claim 1 wherein said closure assembly unit is in the riveted sealed position within and about a containers aperture it can not be forcibly pried out without tattle tale damage to the closure assembly unit due to the compressed riveted confinement in this position.

15. In combination of claim 12 wherein said closure unit is noted being removed from a containers aperture in the conventional manner the confinement as noted in claim 14 will be removed and the closure unit can readily be disassembled, reassembled and the damaged cap member replaced so the closure will again meet shipping specifications for reuse.

opening centered in the concave section the said members become an aperture flow through adaptor for piping and the like attachments thereto. 

1. In combination with a pair of telescoping bucket type members telescopable one within the other on a common axis, the outer member of expandable retractable material with its outer configuration providing means to aid in the subsequent closing telescoping clamping, expanding and positioning/locking action with and for the inner telescoping member while its outer configuration provides means to aid in the subsequent clamping riveting seal feature within the aperture and about its boss, the inner member of firm material having an outer configuration providing positioning/locking, seizing and clamping means within said outer member at the subsequent closing telescoping riveting seal action while its inner configuration includes means for the subsequent unit removal as well as air passage holes functional in conjunction with a plastic type cover cap third member which is pre-affixed onto the clamping flange of said member, which has peripheral air passage channels that in conjunction with the inner member''s air passage holes for the subsequent release of air from between the inner and outer members at the subsequent telescoping closure action and positioning means for affixing onto the clamping flange of said inner member and a snap-on means for the subsequent securing to the outer member''s clamping flange, whereupon the telescoping closure action the inner member is seated in a selected locked position within the outer member expanding and clamping said member to effect a riveted seal within an aperture and upon the opposing faces of the boss containing the aperture of a container or the like thus the closure assembly is a complete and independent closure unit for the various types of apertures.
 2. The combination of claim 1 wherein said outer member includes a conical frustrum section that upon receiving the inner member expands from a conical frustrum section to a cylindrical section outwardly to seal against a container''s or the like connection''s aperture wall and or threads.
 3. The combination of claim 1 wherein said expandable retractable outer member includes at its closed end and outward annular ring functional in conjunction with an opposite outward clamping flange that upon the telescoping closure action the annular ring is forcibly stretched and rolled within and sealed against the aperture boss''s inner facing while the clamping flange is forcibly sealed against the aperture boss''s outer face to effect a riveted stretched confinement.
 4. The combination of claim 1 wherein said expandable retractable outer member includes at its closed end a concave section that upon the riveting closure action the concave surface is flattened by the forcible insertion of the inner member providing material for and aiding in the rollinG riveting seal action of said annular ring.
 5. The combination of claim 2 wherein said outer members conical frustrum section includes internal retaining and positioning/locking annular grooves to receive and secure the inner member''s annular positioning/locking rings when the closure unit is telescopingly seated in the riveted sealed position.
 6. The combination of claim 1 wherein said inner member includes outward annular positioning/locking rings on its cylindrical section for securing said inner member into said retaining and positioning/locking annular grooves within the outer member in the initial aligned position and the subsequent seated riveted sealed position.
 7. The combination of claim 1 wherein said inner member includes between said annular rings a series of segments on its cylindrical section for securing said inner member to said outer member upon the subsequent telescoping riveting seal action the said segments forcibly embedding into the outer member wall to render the said member non-rotatable one within the other and or so when the inner member is rotated it is affixed to the outer member causing said outer member to rotate likewise.
 8. The combination of claim 6 wherein an alternate inner member includes between said annular rings a series of outward projecting or raised left hand threads on its cylindrical section for securing said inner member to said outer member upon the subsequent telescoping riveting seal action when said threads are forcibly embedded into the outer member wall to render said outer member non-rotatable counter clockwise one about the other and or so when the inner member is rotated counter clockwise it is affixed to the outer member causing said outer member to rotate likewise.
 9. The combination of claim 8 wherein said inner member has outward projecting left hand threads on its cylindrical section for securing said inner member to said outer member upon the subsequent telescoping riveting seal action within and about a threaded or unthreaded aperture, the inner member can be removed from the assembly by the clockwise rotation of said member thus freeing the assembly from the aperture.
 10. The combination of claim 1 wherein said inner members include a hexagonal or the like socket within the cylindrical section for the subsequent socket wrench removal of the assembly unit from the container''s or the like aperture.
 11. The combination of claim 1 wherein applicable members, the inner member with cap member of closure affixed as a unit are provided with air escape passages for the release of would be trapped air at the subsequent telescoping riveting seal action when said inner member is seated within outer member.
 12. The combination of claim 1 wherein said cap member includes a means indicating size, shape and position of the hexagonal or other type socket wrench necessary for the removal of the aperture closure assembly from a container''s aperture and upon the removal said cap will have tattle tale signs of the removal or tampering.
 13. The combination of claim 1 wherein the closing telescoping clamping, expanding, positioning/locking, riveting seal means provide a closure and or an adaptor unit for the various container or the like aperture boss configurations and does not require a special aperture boss design to be functional.
 14. In combination of claim 1 wherein said closure assembly unit is in the riveted sealed position within and about a container''s aperture it can not be forcibly pried out without tattle tale damage to the closure assembly unit due to the compressed riveted confinement in this position.
 15. In combination of claim 12 wherein said closure unit is noted being removed from a container''s aperture in the conventional manner the confinement as noted in claim 14 will be removed and the closure unit can readily be disassembled, reassembled and the damaged cap member replaced so the closure will again meet shipping specifications for reuse.
 16. In combination of claim 1 wherein said inner member when including a flow through opening and piping attachment means in lieu of said air passage holes, and said outer member includes a flow through opening centered in the concave section the said members become an aperture flow through adaptor for piping and the like attachments thereto. 